Researchers at Cincinnati Children's Hospital Medical Center in collaboration with Roche, have developed a next-generation human liver organoid microarray platform that could help predict which drugs ...

Scientists from Cincinnati Children's and colleagues based in Japan report achieving a major step forward in organoid technology: producing liver tissue that grows its own internal blood vessels. This ...

This 3D animation shows an advanced liver organoid capable of forming its own internal blood vessels. Using a multilayered gel process, researchers coaxed vessel-forming sinusoidal cells (bright green ...

CINCINNATI—Researchers at Cincinnati Children’s Hospital Medical Center in collaboration with Roche, have developed a next-generation human liver organoid microarray platform that that could help ...

One reason why our livers excel at clearing waste from our blood system is that the organ functions according to three key "zones" that perform specific major tasks. So, if scientists hope to create ...

The liver has a unique structure, especially at the level of individual cells. Hepatocytes, the main liver cells, release bile into tiny channels called bile canaliculi, which drain into the bile duct ...

The liver has a unique structure, especially at the level of individual cells. Hepatocytes, the main liver cells, release bile into tiny channels called bile canaliculi, which drain into the bile duct ...

Researchers in South Korea have developed an organoid disease model and non-destructive stiffness analysis technology for evaluating the efficacy of new drugs for fatty liver disease. The research ...

CINCINNATI, June 25, 2025 /PRNewswire/ -- Scientists from Cincinnati Children's and colleagues based in Japan report achieving a major step forward in organoid technology--producing liver tissue that ...